EP4008116A1

EP4008116A1 - System for detecting accidental damage and communication

Info

Publication number: EP4008116A1
Application number: EP21701788.8A
Authority: EP
Inventors: Harald Hagen; Willi Wendt
Original assignee: Audi AG
Current assignee: Audi AG
Priority date: 2020-03-05
Filing date: 2021-01-25
Publication date: 2022-06-08
Anticipated expiration: 2041-01-25
Also published as: CN114930883A; DE102020105949A1; EP4008116B1; CN114930883B; US11922794B2; WO2021175510A1; US20230093041A1

Abstract

The invention relates to a system for detecting accidental damage in a parked vehicle and for communication with the vehicle owner and optionally the party who caused the damage, and a method for operating the system.

Description

System for accident damage detection and communication

DESCRIPTION: The present invention relates to a system for detecting accident damage in a parked vehicle and for communication with the vehicle owner and possibly the person who caused the damage, and a method for operating the system. In order to monitor a parked vehicle for parking collisions while the driver is absent and, if necessary, to inform the vehicle owner or fleet manager of any damage, systems are used that detect parking collisions and notify the vehicle owner or fleet manager or an authorized addressee.

Vehicle vibrations and structure-borne noise events on body parts are detected via a central sensor or individual sensors that are attached to the exterior of the vehicle. These structure-borne sound signals are evaluated and, depending on the severity, classified as a damage event (scratch / impact / dent / compression). The absent driver or vehicle owner is then informed via telematics. The surroundings camera of the vehicle is also put into operation with a time delay and the surroundings of the vehicle can be viewed by the authorized user via remote access and / or a recording or a video recording is automatically made with the surroundings camera.

According to this procedure, information about the damage event is only communicated to the vehicle driver or vehicle owner. An elaborate evaluation of images and Records required and no direct communication with the perpetrator is provided.

US 2019/156594 A1 discloses systems and methods for detecting an accident in a motor vehicle. The acceleration of the vehicle is measured using an accelerometer of a mobile device located inside the vehicle. The system determines the size of each acceleration measurement and checks whether the size exceeds one or more threshold values. The system also determines the number of acceleration events within a time window and whether the number exceeds one or more threshold values. The system determines whether an accident has occurred with the vehicle based on the magnitudes of the acceleration, the number of acceleration events and various threshold values.

From KR 2004/0085574 A, a vehicle accident recording device with a mobile communication unit is known which automatically receives IDs from cell phones or PDAs of the driver of a vehicle involved in the accident and from passers-by observing the accident during the accident via Bluetooth communication recorded and transmitted over a cellular network to a server in order to identify witnesses to the accident.

CN 108965439 A relates to an emergency system for traffic accidents based on a WiFi communication module. The emergency system includes an accident emergency module and several vehicle monitoring modules. Each monitoring module comprises a central unit, an interface that enables access to an electronic device, a detection unit for collecting vehicle information at the scene of the accident, a face recognition unit for collecting information about the driver at the scene of the accident, an input unit that sends an interaction request to the central unit, a position determination unit for determining the position of the accident site, a WiFi communication unit for establishing a connection between the vehicle monitoring module and the accident emergency module, and a power supply unit, the central unit being connected to the interface, the detection unit for collecting vehicle information, the face recognition unit, the input unit, the position determination unit and the WiFi communication unit.

Against this background, the invention has the object of providing methods and devices with which automatic identification of the person who caused the damage and direct communication between the vehicle and / or its owner and the person causing the damage are made possible.

The object is achieved according to the invention by a method with the features of claim 1 and a device with the features of claim 9. Refinements and developments of the invention emerge from the dependent claims and the description.

The invention relates to a method in which, when damage to a parked motor vehicle is detected, at least one communication module of the motor vehicle detects the MAC addresses of the mobile communication devices in the vicinity of the motor vehicle and transmits them to a mobile communication device of the vehicle owner. The mobile communication devices in the vicinity of the motor vehicle must be capable of communicating with the at least one communication module of the motor vehicle. In one embodiment, the at least one communication module of the motor vehicle is a WLAN module. In another embodiment, the at least one communication module of the motor vehicle is a Bluetooth module. In yet another embodiment, the at least one communication module of the motor vehicle is a cellular radio module. In yet another embodiment, the at least one communication module of the motor vehicle is an infrared module. In one embodiment of the method, when damage to the parked motor vehicle is detected, at least one communication module of the motor vehicle emits an interference signal in order to switch mobile communication devices in the vicinity of the motor vehicle to a reception mode and to put them into a search mode, whereby the in the vicinity of the motor vehicle located mobile communication devices for the at least one communication module of the motor vehicle are visible and are activated by the at least one communication module of the motor vehicle.

If the at least one communication module of the motor vehicle is a WLAN module, the active interference signal switches WLAN-enabled mobile communication devices in the vicinity of the motor vehicle, which may already be logged into networks other than the WLAN of the parked motor vehicle, into the receiving mode and the The subsequent search mode for the at least one WLAN module of the parked motor vehicle is visible and can be activated by the at least one WLAN module of the parked motor vehicle. As a result, the at least one WLAN module of the parked motor vehicle detects the MAC addresses of the WLAN-capable mobile communication devices located in the vicinity of the parked motor vehicle.

The MAC address (Media Access Control address) is the hardware address of the network adapter of a mobile communication device, which serves as a unique identifier for the device in a computer network. One also speaks of a physical address or device address. In one embodiment of the method, the MAC address is compared with the IP address of the mobile communication device in order to determine who caused the damage. In a further embodiment of the method, the parked motor vehicle transmits a message to a mobile communication device of the person who caused the damage, for example via SMS or WAP Push. For example, a message could read: “Damage has been detected. Please log in to the vehicle WiFi for Enter your contact details "or" Damage was detected. Please contact the owner via the vehicle WiFi ".

In a further embodiment, WLAN-capable mobile communication devices located in the vicinity of the parked motor vehicle are automatically logged into the WLAN of the motor vehicle.

In a further embodiment of the method, the person who caused the damage and people in the vicinity of the vehicle are able to independently log into the vehicle's WLAN server and thus actively establish communication in order to leave messages (name, address, accident information, insurance data, etc.). This possibility avoids legally compliant "slip messages" and makes it unnecessary to report an accident to the police. A settlement of the damage between the polluter and the vehicle owner can be simplified.

In a further embodiment of the method, a message intended for the person who caused the damage is displayed by the parked motor vehicle. In one embodiment, the message is projected onto a window of the motor vehicle by a head-up display (HUD) of the motor vehicle. For example, a message could read: “Damage has been detected. Please log in to the vehicle WiFi to provide your contact details "or" Damage was detected. Please contact the owner via the vehicle WiFi ".

In a further embodiment of the method, direct communication between the vehicle owner and the person who caused the damage is established via the WLAN of the parked motor vehicle.

The invention also relates to a motor vehicle with a device set up to carry out the method according to the invention. The device comprises means for detecting accident damage. In one embodiment, the means for detecting accident damage comprise means for detecting and evaluating vibrations of the motor vehicle and structure-borne noise events on body parts of the motor vehicle. In a further embodiment, the means for detecting accident damage comprise at least one acceleration sensor. The evaluation means are set up to classify vibrations and structure-borne sound events as damage events (scratches / blows / dent / compression) depending on their severity. Such systems for the detection of accident damage are known in principle to the person skilled in the art.

The device further comprises a central module which is set up to be activated by the means for detecting accident damage. The central module is connected to at least one communication module of the motor vehicle, which can be a WLAN module, for example. In one embodiment, the central module is connected to a plurality of communication modules which are arranged on the body of the motor vehicle. In one embodiment, four communication modules are arranged on the body of the motor vehicle in such a way that they are as far apart from one another as possible, e.g. under the headlights and the rear lights of the motor vehicle. This ensures that the entire surrounding area of the motor vehicle (360 °) is covered. Car-to-X communication to the outside is possible with the communication modules in parking mode.

The central module is set up to allow the at least one communication module of the motor vehicle to send out an interfering signal that switches mobile communication devices in the vicinity of the motor vehicle to a receive mode and puts them into a search mode, and for the mobile communication devices in the vicinity of the motor vehicle activate the at least one communication module of the motor vehicle and have their MAC addresses determined. In one embodiment, the central module is set up to determine the associated IP address from the determined MAC address of a mobile communication device located in the vicinity of the motor vehicle. Determining the MAC address and comparing it with the IP address enables subsequent contact to be made with the person who caused the damage, for example via push messages. Alternatively, the IP address enables the person who caused the damage to be determined directly in the event of an accident.

The central module is also designed as a wireless access point and set up to establish a wireless connection to a mobile communication device of the vehicle owner and to transmit information to the mobile communication device of the vehicle owner. In a further embodiment, the central module is set up to establish a wireless connection to a mobile communication device of the person who caused the accident damage and to transmit information to the mobile communication device of the person who caused the accident damage. In a further embodiment, the central module is set up to establish a wireless connection to the Internet. In a further embodiment, the central module is set up to establish a bidirectional wireless connection between a mobile communication device of the vehicle owner and a mobile communication device of the person who caused the accident damage.

One of the advantages of the method according to the invention and the device presented is that a possibility is provided for direct communication between the person who caused damage to a parked motor vehicle and the vehicle owner. The person who caused the damage can transmit information and messages to the vehicle owner. This can simplify the settlement of the damage between the polluter and the vehicle owner. Not legally compliant "slip messages" are avoided and reporting an accident to the police is unnecessary. Further advantages and embodiments of the invention emerge from the description and the accompanying drawings.

It goes without saying that the features mentioned above and those yet to be explained below can be used not only in the respectively specified combination, but also in other combinations or on their own, without departing from the scope of the present invention.

The invention is shown schematically on the basis of embodiments in the drawings and is described further with reference to the drawings. It shows:

FIG. 1 shows an embodiment of a motor vehicle according to the invention and an illustration of the method according to the invention.

FIG. 1 shows a motor vehicle 10 according to the invention with a central module 30 which is in bidirectional connection with four WLAN modules 31 which are arranged at the corners of the body of the motor vehicle 10. Damage was caused to one side of the motor vehicle.

The holder 12 of the motor vehicle 10 and a mobile communication device 11 (e.g. a smartphone or a tablet computer) of the vehicle owner 12 are also shown schematically in FIG. 1 a smartphone or a tablet computer) of the causer 22 is shown.

To illustrate the method according to the invention, various exemplary method steps 100, 110, 120, 130 and 140 are also symbolized in FIG. In step 100, damage 20 is detected by evaluating the vibration of motor vehicle 10 detected by sensors (not shown in FIG. 1) or the structure-borne noise signals caused by the damage event, and central module 30 and the associated WLAN modules 31 are activated 30 boots an open WLAN.

In step 110, an interference signal is transmitted via the WLAN modules 31, which briefly disturbs the WLAN-capable mobile communication device 21 of the originator 22 located in the vicinity of the motor vehicle 10 so that it goes into receive mode and is recognized by the WLAN modules 31 . As a result, the MAC address of the WLAN-capable mobile communication device 21 of the originator 22 is determined and is available for further evaluation. The determined MAC address is transmitted to the mobile communication device 11 of the vehicle owner 12 in step 120. The transmission 120 can take place, for example, via mobile radio or via the Internet.

In step 130 there is an interaction between the central module 30 and the originator 22 via the WLAN module 31 and the mobile communication device 21 logs into the WLAN of the motor vehicle 10 to leave a message or information. The interaction can also include, for example, that a message to the cause 22 is projected onto a window of the motor vehicle 10 via a HUD (not shown).

In a variant of the method, the central module 30 establishes a direct bidirectional communication connection between the mobile communication device 11 of the vehicle owner 12 and the mobile communication device 21 of the causer 22 in step 140 so that they can exchange information directly with one another. Reference list

10 parked vehicle

11 vehicle owner mobile communication device 12 vehicle owner

20 damage

21 mobile communication device of the causer of the damage

22 who caused the damage

30 Central module 31 WLAN module

100 damage detection

110 Determination of MAC address 120 Transmission of MAC address 130 Message transmission 140 bidirectional communication

Claims

PATENT CLAIMS:

1. A method in which, upon detection of damage to a parked motor vehicle (10), at least one communication module (31) of the motor vehicle (10) contains the MAC addresses in the vicinity of the

The mobile communication devices (21) located in the motor vehicle (10) are detected and transmitted to a mobile communication device (11) of the vehicle owner (12).

2. The method according to claim 1, wherein when damage to the parked motor vehicle (10) is detected by at least one communication module (31) of the motor vehicle (10), an interference signal is transmitted to switch mobile communication devices (21) in the vicinity of the motor vehicle to a receive mode to switch and put it into a search mode, which means that the

Mobile communication devices (21) located in the vicinity of the motor vehicle (10) for the at least one communication module (31) of the motor vehicle (10) become visible and are activated by the at least one communication module (31) of the motor vehicle (10).

3. The method according to claim 1 or 2, wherein the parked motor vehicle (10) transmits a message to a mobile communication device (21) of the cause (22) of damage (20) to the parked motor vehicle (10).

4. The method according to claim 3, wherein the transmission of the message takes place via WAP Push. 5. The method according to any one of the preceding claims, wherein im

WLAN-capable mobile communication devices (21) located in the vicinity of the parked motor vehicle (10) can be automatically logged into a WLAN of the motor vehicle (10).

Method according to one of the preceding claims, wherein the person responsible (22) of the damage (20) and other people in the vicinity of the vehicle (10) are able to log into a WLAN server of the vehicle (10) independently in order to leave messages.

Method according to one of the preceding claims, wherein a message intended for the person who caused the damage (20) is displayed from the parked motor vehicle (10).

Method according to one of the preceding claims, wherein direct communication between the vehicle owner (12) and the person who caused the damage (20) is established via the WLAN of the parked motor vehicle (10).

Motor vehicle (10) comprising means for detecting accident damage (20), a central module (30) which is connected to at least one communication module (31) of the motor vehicle (10), and which is set up to receive from the means for detecting accident damage ( 20) to be activated and to have the at least one communication module (31) of the motor vehicle (10) send out an interference signal which switches mobile communication devices (21) located in the vicinity of the motor vehicle (10) into a receive mode and puts them into a search mode, and set up to activate the mobile communication devices (21) located in the vicinity of the motor vehicle (10) by the at least one communication module (31) of the motor vehicle (10) and to have their MAC addresses determined, the central module being configured as a wireless access point is set up for a wireless connection to a mobile communication device (11) of the vehicle stop rs (12) and to transmit information to the mobile communication device (11) of the vehicle owner (12).

10. Motor vehicle (10) according to claim 9, wherein the central module (30) is set up to establish a wireless connection to a mobile communication device (21) of the cause (22) of damage (20) to the motor vehicle (10) and to provide information the mobile communication device (21) of the

To transmit the causer (22).